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The Composition, Structure, and Functionalities of Prolamins from Highland Barley.

Jinjin XingZhaomin LiWenhui ZhangPeng-Jie Wang
Published in: Molecules (Basel, Switzerland) (2023)
The composition, structure, and functionalities of prolamins from highland barley were investigated. These parameters were compared with those of the commonly applied prolamins (zein). There are more charged and hydrophilic amino acids in highland barely prolamins than zein. The molecular weight of highland barely prolamins was between 30 and 63 kDa, which was larger than that of zein (20 and 24 kDa). The main secondary structure of highland barely prolamins was β-turn helices, while α-helical structures were the main secondary structure in zein. The water holding capacity, thermal stability, emulsifying capacity, and stability of prolamins from highland barley were significantly higher than in zein, while the opposite results were observed for oil absorption capacity between the two. The diameter of fibers prepared using highland barely prolamins was almost six times that of zein, while highland barely prolamins formed ribbon structures instead of fibers. Therefore, the results provide guidance for applications of prolamins from highland barley.
Keyphrases
  • high resolution
  • optical coherence tomography
  • atomic force microscopy
  • single molecule
  • simultaneous determination